A gas occupies 2 litre at STP. It is provided 300 joule heat so that its volume becomes 2.5 litre at 1 atm. Calculate change in its internal energy.

A gas occupies 2 litre at STP. It is provided 58.63 joule heat so that its volume becomes 2.5litre at 1 atm. Calculate change in its interna energe

A gas occupies 2 litre at S.T.P. It is provided 300 joule heat so that its becomes 2.5 litre at 1 atm. Calculate change in its internal energy.

A gas occupies 2L at STP . It is provided 300J heat so that it volume becomes 2.5L at 1atm . Caluclate the change in its internal enegry.

One mole of SO_(2) at 298K and 1atm pressure is heated in a closed vessel so that its temperature is 475K and pressure is 4atm . It is then cooled so that temperature becomes 298K and pressure is 1atm . What is that change in the internal energy of the gas?

A gas absorbs 200J of heat and expands against the external pressure of 1.5 atm from a volume of 0.5 litre to 1.0 litre. Calculate the change in internal energy.

In a container, two moles of a diatomic ideal gas is allowed to expand against 1 atm pressrue & volume change from 2 litre of 5 litre then calculate change in internal energy.

A system absorbs 100J of heat at constant volume and its temperature raises from 300K to 320K. Calculate the change in internal energy.

16g of SO_(x) occupies 5.6 litre at STP . Assuming ideal gas nature, the volume of x is: